SU693224A1 - Apparatus for magnetic inspection of ferromagnetic balls - Google Patents

Description

one

The invention relates to the field of instrumentation technology and is intended for use in enterprises of the engineering industry.

A device is known for monitoring the hardness of bodies of vrash, eni, including balls, based on the measurement of the magnetic characteristics of the test body. The measurement of the hardness of this device is based on the dependence of the force of attraction of the ball to the magnet on the mechanical properties of the ball 1 and 2.

However, the results of motion measurements depend on the mass of the ball and on its diameter.

The closest technical solution to the invention is a sensor consisting of three transformers with a nonmagnetic core. The controlled ball is mounted on three rods, one of which is ferromagnetic, and interacts with the field of the transformer 3.

In the known device, the effect of the inertial mass on the results of the control is excluded, but the effect of the diameter of the ball remains, since it must be the same for the controlled and reference balls. If, however, the diameter of the controlled ilars changes, the results of the hardness determination are incorrect.

The aim of the invention is to improve the accuracy of controlling the hardness of balls of different diameters.

The goal is achieved by the fact that the device is equipped with a guide channel and a shock-absorbing suspension, the guide channel being installed in the zone of a uniform magnetic field perpendicular to its direction, the suspension with the sensor fixed on it being installed above the channel bottom The sensor is located in a plane normal to the channel direction and at an angle to the direction of the magnetizing field.

FIG. 1 shows a device for controlling the hardness of balls of different diameters; in fig. 2 - ball.

The device consists of a magnetizing system 1 (Helmholtz rings), a suspension 2, a guide channel 3, a sensing element 4, a measuring unit 5, a controlled ball 6. In the zone of a uniform magnetic field created by the source, there is a shock suspension 2 a suspension channel 3 connected to the measuring unit 5, the distance from the sensor to the bottom of the channel is smaller than the diameter of the shcher 6. The sensor is located in the plane normal to the direction of channel 3 and is oriented to measure the azimuth th component of the strength of the resulting magnetic field on the ball surface. The angle between the direction of the measured component and the direction of the magnetizing field must be smaller. The operation of the device is as follows; The controlled earth 6 along the guide channel 3 enters the zone of a uniform magnetic field created by source 1, in which it is magnetized. A uniform field, summed with magnetizing field, forms the resultant. The azimuthal component of the intensity But this floor on the surface of the ball (Fig. 2) has the form. .3He-Co, se where jU is the ball permeability; HQ - magnetizing intensity Since the sensor 4, mounted on the shock-absorbing suspension 2, is located at a distance from the bottom of channel 3, which is smaller than the diameter of the gash, when the ball passes through the channel it will appear near the surface of the ball. Therefore: the value of the EMF at the output of the sensor 4 is proportional to But, depends

Claims (3)

FIG. only on the magnetic permeability of the ball at constant Ho and &) and does not depend on the diameter. In this case, the condition% (2) should be fulfilled, since the azimuth component is zero. Claims An apparatus for magnetic control of ferromagnetic balls, comprising a source of magnetic field, a magnetically sensitive sensor and a measuring unit connected to the sensor, characterized in that, in order to increase the control accuracy, the device is equipped with a guide channel and a shock-absorbing suspension, the guide channel being installed in the zone of a uniform magnetic field is perpendicular to its direction, the suspension is mounted above the channel, the sensor is fixed on the suspension so that the distance from the sensor to the bottom of the channel is changed The diameter of the ball, and the direction of the maximum sensitivity of the sensor perpendicular to the direction of the channel, is ® 3 /, with the direction of the magnetic field. Sources of information taken into account in the examination 1. USSR author's certificate number 131948, cl. G 01 N 27/80, 09/25/1960. 2. Authors certificate of the USSR. No. 247581, cl. G 01 N 27/80, 07/04/1969. 3. USSR author's certificate number 105269, cl. G O N 27/72, 11.02.1957. (prototype). H0 fpu3.2